JP6854424B2 - Water faucet - Google Patents

Description

The present invention relates to a faucet.

As a faucet, for example, a faucet in which hot water and water are mixed and discharged is known (see, for example, Patent Document 1).

Patent Document 1 discloses a mixing faucet having a resin inner housing inside a metal outer housing. The mixing faucet of Patent Document 1 supplies the hot water supplied from the hot water supply source and the water supplied from the water supply source into the inner housing through the hot water inflow opening and the water inflow opening, respectively. There is.

Japanese Unexamined Patent Publication No. 2012-172772

In recent years, there has been a demand for faucets with improved durability.

The present invention solves the above problems and provides a faucet with improved durability.

The faucet according to one aspect of the present disclosure is
A hot water mixing valve that mixes hot water and water and a switching valve that changes the amount and direction of hot water discharged mixed by the hot water mixing valve are installed inside and communicate with the hot water mixing valve. And the tubular main pipe that forms the water inlet,
A branch pipe portion for hot water supply, which is branched from a position including the hot water inlet of the main pipe portion and has a hot water channel internally formed to supply hot water from the hot water supply source to the hot water inlet.
A branch pipe portion for water supply, which is branched from a position including the water inlet of the main pipe portion and has a water channel formed inside to supply water from the water supply source to the water inlet.
With
The main pipe portion, the hot water supply branch pipe portion, and the water supply branch pipe portion are integrally formed of resin.
Each of the hot water inlet and the water inlet has a longitudinal direction in the circumferential direction of the main pipe portion when viewed from the opening direction, and is formed in an elongated hole shape having no corners.

As described above, according to the faucet of the present invention, durability can be improved.

FIG. 1 is a perspective view showing the appearance of a resin faucet. FIG. 2 is an exploded view of the faucet unit of FIG. FIG. 3 is an exploded view showing the faucet unit of FIG. 2 in a further disassembled manner. FIG. 4 is a perspective view showing a schematic configuration of the inside of the faucet unit. FIG. 5 is a schematic perspective view of the faucet main body. FIG. 6 is a schematic internal configuration diagram of the faucet main body. FIG. 7 is a schematic internal configuration diagram of the faucet main body when viewed from the extending direction of the hot water supply branch pipe portion and the water supply branch pipe portion. FIG. 8 is a schematic cross-sectional view of the faucet main body of FIG. 6 cut along the line AA.

(Background to the present invention)
In recent years, faucets integrally formed of resin have been developed. For example, a faucet having a resin main pipe portion having a hot water mixing valve and a switching valve inside has been developed.

In such a resin faucet, when hot water and water flow into the main pipe portion through the hot water inlet and the water inlet provided in the main pipe portion, stress is applied in the circumferential direction of the main pipe portion due to the pressure of the hot water and water. Due to this stress, cracks may occur from the hot water inlet and the water inlet, and the resin main pipe portion may be damaged.

This is a problem newly discovered by the present inventors by developing a faucet integrally formed of resin.

Therefore, the present inventors have studied to reduce the stress applied to the hot water inlet and the water inlet by devising the shapes of the hot water inlet and the water inlet, and have reached the following inventions.

Hereinafter, embodiments will be described with reference to the accompanying drawings. Further, in each figure, each element is exaggerated for easy explanation.

(Embodiment 1)
The faucet according to the first embodiment of the present invention will be described.

[overall structure]
FIG. 1 is a perspective view of the faucet 10 according to the first embodiment of the present invention. In the first embodiment, the faucet 10 is a thermostatic faucet attached to the wall surface of the bathroom. As shown in FIG. 1, the faucet 10 includes a faucet unit 20 and a handle unit 50. The faucet unit 20 is a unit for discharging water. The handle unit 50 is a unit that is attached to the faucet unit 20 and makes it possible to change the amount of water discharged, the direction of water discharge, and the degree of mixing of hot water in the water discharge of the faucet unit 20.

<Faucet unit>
FIG. 2 is an exploded perspective view of a part of the faucet unit 20 of FIG. FIG. 3 is a perspective view of the faucet unit 20 of FIG. 2 further disassembled. As shown in FIGS. 2 and 3, the faucet unit 20 includes a faucet main body 21, a heat insulating material 22, a support member 23, a stay 24, and a main body cover 25.

The faucet main body 21 is a member having a flow path through which water passes, and constitutes the main body of the faucet unit 20. The faucet main body 21 is covered with a heat insulating material 22. The heat insulating material 22 is a member for preventing the water inside the faucet main body 21 from freezing. The heat insulating material 22 preferably has a thermal conductivity of 0.05 W / m · K or less, for example. The heat insulating material 22 more preferably has a thermal conductivity of 0.03 W / m · K or less. The support member 23 is a member for supporting the faucet main body 21 by connecting the faucet main body 21 and the stay 24. The stay 24 is a member for fixing the faucet main body 21 to the wall of the bathroom. The main body cover 25 is a member that covers the faucet main body 21. The main body cover 25 includes a celestial body cover 250 and a foundation cover 251. The celestial body cover 250 and the foundation cover 251 are attached to the faucet main body 21 by, for example, screws.

<Faucet body>
FIG. 4 is a perspective view showing a schematic configuration of the inside of the faucet unit 20 when the faucet main body 21 is not covered with the heat insulating material 22. As shown in FIG. 4, the faucet main body 21 is connected to the hot water supply source 27 and the water supply source 28 by a joint 26. The hot water supply source 27 and the water supply source 28 are supply pipes provided inside the wall surface of the bathroom. A water stop valve (not shown) is attached to the joint 26. The water stop valve is a member for stopping the supply of hot water from the hot water supply source 27 and the water supply source 28.

As shown in FIG. 3, a connecting member 29a different from the joint 26 is attached to the faucet main body 21. A shower elbow 29 is attached to the connecting member 29a. The shower elbow 29 is a member for connecting a shower hose.

A hot water mixing valve 30 is attached to the faucet main body 21 from the left side, and a switching valve 31 is attached from the right side. The hot water mixing valve 30 is a member for mixing hot water and water and discharging hot water. The hot and cold water mixing valve 30 is also generally called a thermo cartridge. Hot water is supplied to the hot water mixing valve 30 from the hot water supply source 27 (FIG. 4), and water is supplied from the water supply source 28 (FIG. 4). The switching valve 31 is a member for changing the amount of hot water discharged and the direction of water discharge. The faucet 10 is called a thermostatic faucet because it includes a hot water mixing valve 30 and a switching valve 31.

As shown in FIG. 4, a gear portion 32 that engages with the handle unit 50 is provided at the axially outer ends of the hot water mixing valve 30 and the switching valve 31. The gear portion 32 at the axially outer end of the hot and cold water mixing valve 30 is omitted in FIG.

The handle unit 50 has a first handle unit 50a and a second handle unit 50b. The first handle unit 50a is connected to the hot water mixing valve 30 and adjusts the temperature of the hot water (mixed water), that is, the temperature of the spouting water. The second handle unit 50b is connected to the switching valve 31 and changes the water discharge direction and the water discharge amount.

FIG. 5 is a schematic perspective view of the faucet main body. FIG. 6 is a schematic internal configuration diagram of a part of the faucet main body. FIG. 7 is a schematic internal configuration diagram of a part of the faucet main body when viewed from the extending direction of the hot water supply branch pipe portion and the water supply branch pipe portion. As shown in FIGS. 5 to 7, the faucet main body 21 includes a main pipe 210, a hot water supply branch pipe 211, a water supply branch pipe 212, a curan spouting branch pipe 213, and a shower. It is provided with a branch pipe portion 214 for water discharge.

The faucet main body 21 including these members is integrally formed of resin. That is, the main pipe portion 210, the hot water supply branch pipe portion 211, the water supply branch pipe portion 212, the curan water discharge branch pipe portion 213, and the shower water discharge branch pipe portion 214 are integrally formed of resin.

<Main part>
The main pipe portion 210 is a tubular member formed in a tubular shape. As shown in FIG. 3, the hot water mixing valve 30 and the switching valve 31 are aligned in the axial direction (Y direction) and fitted to the inside of the main pipe portion 210. The inner wall of the main pipe portion 210 forms a space containing the hot water mixing valve 30 and the switching valve 31, and extends along the axial direction. For resin molding using a mold, the inner wall of the main pipe portion 210 may be inclined so as to slightly expand outward from the central side in the axial direction toward the end side (for example, the inclination angle is 0.2). -0.5 degrees). Openings for inserting the hot water mixing valve 30 and the switching valve 31 are formed at both ends of the main pipe portion 210 in the axial direction (Y direction). Thread grooves are formed at both ends, and are screwed with threads formed on the back side of the cap member 33. The thread groove is integrally formed with the main pipe portion 210 by resin.

As shown in FIG. 3, handle units 50 and collars 34 are attached to both ends of the main pipe portion 210 in the axial direction so as to cover the cap member 33. The collar 34 is arranged between the handle unit 50 and the main pipe portion 210.

As shown in FIGS. 5 to 7, on the side wall of the main pipe portion 210, a hot water inlet 210a into which hot water flows in, a water inlet 210b in which water flows in, and mixed water (hot water) in which hot water and water are mixed are discharged. The curan spout 210c and the shower spout 210d are provided.

The hot water inlet 210a, the water inlet 210b, the curan spout 210c and the shower spout 210d are the hot water supply branch pipe 211, the water supply branch 212, the curan spout 213 and the shower spout 210d. Are provided at the positions where are provided.

In the first embodiment, the axial length of the main pipe portion 210 is larger than the diameter of the main pipe portion 210.

<Branch for hot water supply>
The hot water supply branch pipe portion 211 is a tubular member formed by branching from a position including the hot water inlet 210a of the main pipe portion 210. The hot water supply branch pipe portion 211 forms a hot water passage 211a for supplying hot water from the hot water supply source 27 to the hot water inlet 210a. That is, the hot water supply branch pipe portion 211 connects the hot water supply source 27 and the hot water inlet 210a of the main pipe portion 210 to form a hot water passage 211a through which hot water flows.

<Branch pipe for water supply>
The water supply branch pipe portion 212 is a tubular member formed by branching from a position including the water inflow port 210b of the main pipe portion 210. The water supply branch pipe portion 212 internally forms a water channel 212a for supplying water from the water supply source 28 to the water inflow port 210b. That is, the water supply branch pipe portion 212 connects the water supply source 28 and the water inlet 210b of the main pipe portion 210 to form a water channel 212a through which water flows.

The hot water supply branch pipe portion 211 and the water supply branch pipe portion 212 are provided side by side in the axial direction (Y direction) with respect to the main pipe portion 210. That is, the hot water supply branch pipe portion 211 and the water supply branch pipe portion 212 are provided adjacent to each other.

<Branch pipe for water discharge>
The curan spouting branch pipe portion 213 is a member formed by branching from a position including the curan spouting port 210c of the main pipe portion 210. The curan spouting branch pipe portion 213 forms a curan spouting channel 213a inside which discharges mixed water in which hot water and water are mixed. In the first embodiment, the curan water discharge branch pipe portion 213 is a water discharge pipe that discharges curan water.

<Branch pipe for shower water discharge>
The shower water discharge branch pipe portion 214 is a member formed by branching from a position including the shower water discharge port 210d of the main pipe portion 210. The shower spouting branch pipe portion 214 extends toward the wall of the bathroom and forms a shower spouting channel 214a inside which spouts mixed water in which hot water and water are mixed. In the first embodiment, the shower water discharge branch pipe portion 214 is a water discharge pipe for performing shower water discharge. As shown in FIG. 4, a connecting member 29a is attached to the wall-side end of the shower water discharge branch pipe portion 214.

<Hot water inlet>
As shown in FIG. 5, the hot water inlet 210a is an opening that communicates the inside of the main pipe portion 210 and the hot water passage 211a formed inside the branch pipe portion 211 for hot water supply. The hot water inlet 210a is provided on one end side of the main pipe portion 210 on the side to which the hot water mixing valve 30 is attached.

As shown in FIG. 7, the hot water inlet 210a is formed in an elongated hole shape having a longitudinal direction in the circumferential direction of the main pipe portion 210 and a lateral direction in the axial direction of the main pipe portion 210 when viewed from the opening direction. There is. Further, the hot water inlet 210a does not have a corner. By "having no corners" is meant that the intersecting portions of the two different sides forming the elongated hole are not angular and are rounded.

The hot water inlet 210a is formed by a continuously curved curve when viewed from the opening direction. Specifically, the hot water inlet 210a is formed by a curved line that is gently curved in the direction in which the opening is widened when viewed from the opening direction. The "direction of widening the opening" means a direction from the center of the opening to the outside in the radial direction. That is, a curve that is gently curved in the direction of expanding the opening means a curve that is convexly curved in the direction from the center of the opening to the outside in the radial direction. In the first embodiment, the hot water inlet 210a is formed in an elliptical shape having a longitudinal direction in the circumferential direction of the main pipe portion 210 when viewed from the opening direction.

When hot water flows into the main pipe 210 from the hot water passage 211a of the hot water supply branch pipe 211 through the hot water inlet 210a, the hot water flows in the axial direction of the main pipe 210, so that the hot water inlet 210a Stress is also applied to the part in the lateral direction. Therefore, it is preferable that the portion of the hot water inlet 210a in the lateral direction is curved with respect to the axial direction of the main pipe portion 210.

As shown in FIG. 6, the opening area of the hot water inlet 210a is smaller than the flow path cross-sectional area of the hot water channel 211a.

FIG. 8 is a schematic cross-sectional view of the faucet main body of FIG. 6 cut along the line AA. As shown in FIG. 8, the hot water inlet 210a is continuously formed from the hot water channel 211a toward the main pipe portion 210. Further, as shown in FIG. 6, the thickness D1 of the main pipe portion 210 in the portion where the hot water inlet 210a is provided is larger than the thickness D2 of the main pipe portion 210 in the other portion. “Thickness D2 of the main pipe portion 210 of the other portion” means, for example, the thickness of the main pipe portion 210 of the portion on the side where the switching valve 31 is attached.

As shown in FIG. 6, the hot water inlet 210a is eccentric with respect to the central axis CL1 of the hot water supply branch pipe portion 211. The hot water inlet 210a is provided at the position of the flow path through which hot water flows, which is provided in the hot water mixing valve 30 installed inside the main pipe portion 210. That is, by providing the hot water inlet 210a so as to be eccentric with respect to the central axis CL1, the hot water mixing valve 30 and the hot water inlet 210a can be easily aligned.

<Water inlet>
As shown in FIG. 5, the water inflow port 210b is an opening that communicates the inside of the main pipe portion 210 and the water channel 212a formed inside the water supply branch pipe portion 212. The water inflow port 210b is provided on one end side of the main pipe portion 210 on the side to which the hot water mixing valve 30 is attached. Further, the water inflow port 210b is provided on the central side of the main pipe portion 210 with respect to the hot water inflow port 210a.

Like the hot water inlet 210a, the water inlet 210b is also formed in an elongated hole shape having a longitudinal direction in the circumferential direction of the main pipe portion 210 and a lateral direction in the axial direction of the main pipe portion 210 when viewed from the opening direction. ing. Further, the water inlet 210b does not have a corner.

The water inlet 210b is formed by a continuously curved curve when viewed from the opening direction. Specifically, the water inflow port 210b is formed by a curved line that is gently curved in the direction in which the opening is widened when viewed from the opening direction. In the first embodiment, the water inflow port 210b is formed in an elliptical shape having a longitudinal direction in the circumferential direction of the main pipe portion 210 when viewed from the opening direction.

As shown in FIG. 6, the opening area of the water inflow port 210b is smaller than the flow path cross-sectional area of the water channel 212a.

Further, similarly to the hot water inlet 210a, the water inlet 210b is formed continuously from the water channel 211b toward the main pipe portion 210. The thickness D1 of the main pipe portion 210 in the portion where the water inflow port 210b is provided is larger than the thickness D2 of the main pipe portion 210 in the other portion.

In the first embodiment, the thicknesses of the first portion and the second portion are formed to be the same size.

As shown in FIG. 6, the water inflow port 210b is eccentric with respect to the central axis CL2 of the water supply branch pipe portion 212. The water inflow port 210b is provided at the position of the flow path through which water flows, which is provided in the hot water mixing valve 30 installed inside the main pipe portion 210. That is, by providing the water inflow port 210b so as to be eccentric with respect to the central axis CL2, the hot water mixing valve 30 and the water inflow port 210b can be easily aligned.

[effect]
According to the faucet 10 according to the first embodiment, the following effects can be obtained.

The faucet 10 has a main pipe portion 210 in which a hot water mixing valve 30 and a switching valve 31 are internally attached and a hot water inlet 210a and a water flow inlet 210b communicating with the hot water mixing valve 30, and a branch pipe for hot water supply. A portion 211 and a branch pipe portion 212 for water supply are provided. The main pipe portion 210, the hot water supply branch pipe portion 211, and the water supply branch pipe portion 212 are integrally formed of resin. Each of the hot water inlet 210a and the water inlet 210b has an elongated hole shape having a longitudinal direction in the circumferential direction of the main pipe portion 210 and no corners when viewed from the opening direction.

With such a configuration, it is possible to reduce the stress applied to the hot water inlet 210a and the water inlet 210b provided in the resin main pipe portion 210. As a result, the durability of the faucet 10 can be improved.

More specifically, the hot water and water supplied from the hot water supply source 27 and the water supply source 28 flow into the main pipe portion 210 through the hot water inlet 210a and the water flow inlet 210b provided in the main pipe portion 210, respectively. .. At this time, stress tends to be concentrated in the circumferential direction of the main pipe portion 210 at the hot water inlet 210a and the water inlet 210b. In the faucet 10, the hot water inlet 210a and the water inlet 210b have a long hole shape having a longitudinal direction in the circumferential direction of the main pipe portion 210 and no corners, thereby suppressing stress concentration. be able to. Therefore, it is possible to prevent the hot water inlet 210a and the water inlet 210b from being cracked and to prevent the main pipe portion 210 from being damaged.

It is preferable that each of the hot water inlet 210a and the water inlet 210b is formed with a curved curve when viewed from the opening direction. More preferably, each of the hot water inlet 210a and the water inlet 210b has an elliptical shape when viewed from the opening direction.

With such a configuration, the stress applied to the hot water inlet 210a and the water inlet 210b can be further reduced.

The opening area of the hot water inlet 210a is smaller than the flow path cross-sectional area of the hot water channel 211a, and the opening area of the water flow inlet 210b is smaller than the flow path cross-sectional area of the water channel 212a.

With such a configuration, it is possible to reduce the stress applied to the hot water inlet 210a and the water inlet 210b while ensuring the flow rates of the hot water and water flowing into the main pipe 120 through the hot water inlet 210a and the water inlet 210b. it can.

The hot water inlet 210a is continuously formed from the hot water channel 211a toward the main pipe portion 210, and the water flow inlet 210b is continuously formed from the water channel 211b toward the main pipe portion 210. Further, the thickness D1 of the main pipe portion 210 in the portion where the hot water inlet 210a and the water inflow inlet 210b are provided is larger than the thickness D2 of the main pipe portion 210 in the other portion.

With such a configuration, it is possible to reduce the stress applied to the connection point between the main pipe portion 210 and the runner channel 211a and the stress applied to the connection point between the main pipe portion 210 and the water channel 212a. As a result, the durability of the connection point between the main pipe portion 210 and the runner channel 211a and the connection point between the main pipe portion 210 and the water channel 212a can be improved.

The hot water inlet 210a is eccentric with respect to the central axis CL1 of the hot water supply branch pipe portion 211, and the water inlet 210b is eccentric with respect to the central axis CL2 of the water supply branch pipe portion 212.

With such a configuration, the hot water inlet 210a and the water inlet 210b can be easily aligned with respect to the hot water mixing valve 30. Specifically, by eccentricizing the hot water mixing valve 30 with respect to the central axis CL1 of the hot water supply branch pipe portion 211, the hot water mixing valve 30 is placed in the flow path of the hot water mixing valve 30 installed inside the main pipe portion 210. It can be easily aligned. Further, by eccentricizing the water flow inlet 210b with respect to the central axis CL2 of the water supply branch pipe portion 212, the water flow inlet 210b can be easily aligned with the flow path of the hot water mixing valve 30 installed inside the main pipe portion 210. Can be done.

In the first embodiment, an example in which the hot water inlet 210a and the water inlet 210b have an elliptical shape has been described, but the present invention is not limited to this. The hot water inlet 210a and the water inlet 210b may be formed in an elongated hole shape having a longitudinal direction in the circumferential direction of the main pipe portion 210 and having no corners when viewed from the opening direction.

In the first embodiment, the hot water inlet 210a is eccentric with respect to the central axis CL1 of the hot water supply branch pipe portion 211, and the water inlet 210b is eccentric with respect to the central axis CL2 of the water supply branch pipe portion 212. An example has been described, but the present invention is not limited to this. The hot water inlet 210a may be on the central axis CL1 of the hot water supply branch pipe portion 211, or the water inlet 210b may be on the central axis CL2 of the water supply branch pipe portion 212.

Although the present invention has been described in each embodiment with some detail, the disclosures of these embodiments should vary in the details of the configuration. In addition, changes in the combination and order of elements in the embodiments can be realized without departing from the scope and ideas of the present disclosure.

The present invention can improve the durability of a resin faucet.

10 Faucet 20 Faucet unit 21 Faucet body 210 Main pipe 210a Hot water inlet 210b Water inlet 210c Karan spout 210d Shower spout 211a Hot water supply branch pipe 211a Hot water supply branch pipe 212a Water channel 213 Faucet spouting branch pipe 213a Karan spouting channel 214 Shower spouting branch pipe 214a Shower spouting channel 22 Heat insulating material 23 Support member 24 Stay 25 Body cover 250 Astronomical cover 251 Foundation cover 26 Fittings 27 Hot water supply source 28 Water supply source 29 Elbow 29a Connection member 30 Hot and cold water mixing valve 31 Switching valve 32 Gear part 33 Cap member 34 Color 50 Handle unit CL1, CL2 Central axis D1, D2 Thickness

Claims (6)

A hot water mixing valve that mixes hot water and water and a switching valve that changes the amount and direction of hot water discharged mixed by the hot water mixing valve are installed inside and communicate with the hot water mixing valve. And the tubular main pipe that forms the water inlet,
A branch pipe portion for hot water supply, which is branched from a position including the hot water inlet of the main pipe portion and has a hot water channel internally formed to supply hot water from the hot water supply source to the hot water inlet.
A branch pipe portion for water supply, which is branched from a position including the water inlet of the main pipe portion and has a water channel formed inside to supply water from the water supply source to the water inlet.
With
The main pipe portion, the hot water supply branch pipe portion, and the water supply branch pipe portion are integrally formed of resin.
Each of the hot water inlet and the water inlet has a longitudinal direction in the circumferential direction of the main pipe portion when viewed from the opening direction, and is formed in an elongated hole shape having no corners. The faucet according to claim 1, wherein each of the hot water inlet and the water inlet is formed by a curved curve when viewed from the opening direction. The faucet according to claim 2, wherein each of the hot water inlet and the water inlet has an elliptical shape when viewed from the opening direction. The opening area of the hot water inlet is smaller than the flow path cross-sectional area of the hot water channel.
The opening area of the water inlet is smaller than the channel cross-sectional area of the water channel.
The faucet according to any one of claims 1 to 3. The hot water inlet is continuously formed from the hot water channel toward the main pipe portion.
The water inlet is continuously formed from the water channel toward the main pipe portion.
The thickness of the main pipe portion of the hot water inlet and the portion where the water inlet is provided is larger than the thickness of the main pipe portion of the other portion.
The faucet according to any one of claims 1 to 4. The hot water inlet is eccentric with respect to the central axis of the hot water supply branch pipe portion.
The water inlet is eccentric with respect to the central axis of the water supply branch pipe.
The faucet according to any one of claims 1 to 5.

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